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  • Digital India Initiatives

    [8th Jaunary 2026] The Hindu OpED: Natgrid, the search engine of digital authoritarianism

    Prelims Only | Security Issues | Mains Paper 3: Cyber Security

    PYQ Relevance

    [UPSC 2023] What are the internal security challenges being faced by India? Give out the role of Central Intelligence and Investigative Agencies tasked to counter such threats.

    Linkage: NATGRID represents the technological backbone of intelligence coordination among central agencies. The question allows analysis of how intelligence reforms post-26/11 rely increasingly on data integration, while raising concerns of accountability and oversight.

    Mentor’s Comment

    This article examines the transformation of India’s intelligence architecture through the National Intelligence Grid (NATGRID). It evaluates how a system conceived after the 26/11 terror attacks for intelligence coordination is evolving into a large-scale, algorithm-driven surveillance infrastructure. The piece raises constitutional, institutional, and ethical concerns relevant to internal security, governance, civil liberties, and democratic accountability.

    Introduction

    Conceived as a technological “crown jewel,” NATGRID aimed to enable seamless intelligence coordination. However, its evolution from a post-crisis intelligence grid into a population-wide surveillance architecture marks a fundamental shift in India’s security-liberty balance.

    Why in the News?

    NATGRID has re-emerged as a major policy concern due to recent reports highlighting its expanded operationalisation, widening user base, and integration with the National Population Register (NPR). Intelligence access has shifted from post-event investigation to real-time, algorithmic risk assessment. The scale is unprecedented, around 45,000 queries per month, extended to state police officers down to the Superintendent of Police rank, marking a sharp departure from earlier centralised intelligence control. This expansion occurs without a statutory framework or independent oversight, raising fears of institutionalised mass surveillance and digital authoritarianism.

    Why did NATGRID emerge after 26/11?

    1. Intelligence Fragmentation: Identified failure to synthesise scattered inputs such as visa records, travel itineraries, hotel stays, and financial trails related to David Headley.
    2. Post-Crisis Imperative: Positioned as a technological fix to prevent future terror attacks through real-time data aggregation.
    3. Institutional Expansion: Envisioned as middleware enabling 11 central agencies to query databases across 21 categories, spanning identity, travel, telecom, finance, and assets.

    How did NATGRID evolve institutionally?

    1. Administrative Clearance: Operationalised through executive decisions rather than Parliamentary legislation.
    2. Delayed Rollout: Long gestation period led to perceptions of “vapourware” until post-2020 acceleration.
    3. Operational Activation: Publicly announced in 2009; cleared in 2012 without statutory safeguards; rebranded under Mission Mode Project “Horizon.”

    What scale of intelligence access does NATGRID now enable?

    1. Query Volume: Handles approximately 45,000 intelligence queries per month.
    2. User Expansion: Access widened beyond central agencies to state police officers up to SP rank.
    3. Routine Policing Shift: Intelligence access integrated into everyday law enforcement rather than exceptional counter-terror operations.

    Why does integration with NPR mark a structural break?

    1. Population Mapping: NPR data includes demographic, biometric, residential, lineage, and identity details.
    2. Function Creep: Converts a population register into an intelligence query platform.
    3. Paradigm Shift: Moves intelligence from tracking discrete events to continuous surveillance of individuals.
    4. Political Sensitivity: NPR’s linkage with NRC debates amplifies concerns of profiling and citizenship filtering.

    How does algorithmic policing change the nature of surveillance?

    1. Entity Resolution: Deployment of “Gandiva,” an analytics engine capable of linking fragmented datasets to identify individuals.
    2. Predictive Risk Assessment: Uses facial recognition, KYC databases, and driving licence records.
    3. Inference at Scale: Algorithms determine intent based on pattern recognition rather than human judgment.
    4. Bias Amplification: Existing social biases embedded in data risk reinforcing caste, religious, and geographic profiling.

    Why is lack of oversight a central concern?

    1. Absence of Statute: No dedicated law governing scope, limits, or accountability of NATGRID.
    2. Judicial Gap: Legality of large-scale intelligence surveillance remains unadjudicated despite pending cases.
    3. Clerical Overload: Tens of thousands of monthly requests undermine meaningful scrutiny.
    4. Autonomous Surveillance: Weak Parliamentary oversight allows self-justifying intelligence architectures.

    Why does the argument of “intelligence necessity” fall short?

    1. Operational Failures: 26/11 highlighted deficits in training and ground-level policing, not data scarcity.
    2. Over-Reliance on Technology: Intelligence failures often stem from institutional silos, not lack of databases.
    3. False Positives Risk: Automated “hits” can trigger irreversible harm without due process.
    4. Learning Deficit: Local police lacked firearm training during 26/11 despite intelligence availability.

    What constitutional values are at stake?

    1. Privacy Erosion: Expansive surveillance contradicts proportionality standards laid down in privacy jurisprudence.
    2. Due Process Deficit: Automated suspicion undermines presumption of innocence.
    3. Chilling Effect: Normalisation of surveillance reshapes citizen-state relations.
    4. Judicial Precedent: Reliance on Justice K.S. Puttaswamy (Retd.) v. Union of India (2017) contrasts with unchecked surveillance growth.

    Conclusion

    NATGRID reflects a decisive shift in India’s internal security architecture from intelligence coordination to continuous, technology-driven surveillance. While conceived to prevent failures like 26/11, its expansion in scale, scope, and access, without a clear statutory framework or independent oversight, raises fundamental concerns about privacy, proportionality, and democratic accountability. Intelligence systems that rely on algorithmic inference and population-wide data integration risk normalising suspicion and eroding constitutional safeguards. Effective counter-terrorism requires not only technological capability but also institutional accountability, legal clarity, and professional capacity-building. Without these correctives, NATGRID risks functioning less as a preventive security instrument and more as an enduring infrastructure of digital authoritarianism.

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  • Capital Markets: Challenges and Developments

    Why silver prices surfed at 160% wave in 2025

    Explained | Economics | Mains Paper 3: Indian Economy

    Introduction

    Silver’s price escalation in 2025 reflects a transformation from a quasi-precious metal into a critical industrial and financial asset. Unlike gold, silver’s value is increasingly driven by its role in energy transition technologies, electronics, and advanced manufacturing, compounded by global supply constraints and portfolio diversification strategies amid macroeconomic uncertainty.

    Why in the News?

    Silver prices recorded an unprecedented 160% rise in 2025, crossing ₹1,00,000 per kg for the first time in December and extending gains into early 2026. This surge marks a sharp departure from earlier years when silver lagged behind gold despite industrial relevance. The rally is significant due to the simultaneous occurrence of global supply shortages, rising industrial demand, financial market inflows, and policy-driven monetary easing, indicating a structural rather than speculative price shift.

    Why did silver prices rise steadily through 2025?

    1. Price escalation trend: Silver spot prices rose from ₹85,913 per kg in January 2025 to ₹2,46,889 per kg by January 2026, reflecting sustained monthly gains rather than episodic spikes.
    2. Contrast with gold: While gold reached record highs, silver outperformed gold in percentage terms, breaking its traditional role as a lagging asset.

    How did monetary policy fuel silver’s rally?

    1. Interest rate expectations: Anticipation of rate cuts by the US Federal Reserve reduced opportunity costs of holding non-yielding assets.
    2. Liquidity expansion: Easing global monetary conditions increased capital flows into commodities as inflation hedges.
    3. Debasement trade: Weakening of the US dollar revived investor preference for hard assets, including silver.

    What role did industrial demand play in driving prices?

    1. Energy transition demand: Silver usage expanded in solar panels, batteries, and electronics, making it integral to climate-transition infrastructure.
    2. Artificial Intelligence applications: AI-driven data centres and electronics increased silver consumption across high-conductivity components.
    3. Demand breadth: Unlike gold, silver’s value is supported by simultaneous investment and consumption demand, amplifying price momentum.

    Why did global supply fail to keep pace with demand?

    1. By-product mining constraint: Silver production depends largely on extraction alongside other metals, limiting supply responsiveness.
    2. Supply-demand imbalance: Global silver output did not rise proportionately despite demand expansion in renewables and electronics.
    3. Critical mineral status: The US Geological Survey added silver to its critical minerals list, highlighting strategic vulnerability.
    4. Geopolitical signalling: China’s inclusion of silver in its critical minerals list reinforced scarcity perceptions.

    How did physical shortages in global markets amplify prices?

    1. London market disruption: Physical silver shortages emerged in London, a key global trading hub.
    2. Inventory depletion: Stockpiles in the US declined sharply as inventories were drawn down to meet rising demand.
    3. Delivery constraints: Supply mismatches reduced confidence in paper silver contracts, increasing preference for physical holdings.

    What role did financialisation and ETFs play?

    1. ETF inflows: Silver Exchange Traded Funds attracted strong inflows, especially after September 2025.
    2. Passive investment growth: Low-cost ETFs expanded retail and institutional exposure to silver.
    3. Momentum reinforcement: ETF buying converts price expectations into actual market demand.

    Why did fear psychology matter in this rally?

    1. Stockpiling behaviour: US inventory accumulation triggered expectations of prolonged shortages.
    2. Self-fulfilling cycle: Fear of missing out encouraged accelerated buying, pushing prices higher.
    3. Market signalling: Rising prices validated scarcity narratives, reinforcing investor confidence.

    Conclusion

    The 2025 silver rally represents a structural realignment driven by industrial indispensability, constrained supply, financialisation, and macroeconomic easing. Unlike past speculative cycles, silver’s price surge reflects deeper shifts in global production systems and energy priorities. Managing such strategic commodities will be central to future economic resilience and sustainable growth.

    PYQ Relevance

    [UPSC 2024] What are the causes of persistent high food inflation in India? Comment on the effectiveness of the monetary policy of the RBI to control this type of inflation.

    Linkage: The silver rally shows how global liquidity and supply constraints drive commodity inflation beyond the reach of monetary policy. It helps explain limits of RBI tools in controlling cost-push inflation, strengthening GS-III answers on inflation management.

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  • Climate Change Negotiations – UNFCCC, COP, Other Conventions and Protocols

    India’s progress on its climate targets

    Explained | Enviro & Biodiversity | Mains Paper 3: Conservation, Environmental Pollution & Degradation, Eia

    Introduction

    India’s climate commitments under the Paris Agreement reflect the principle of Common but Differentiated Responsibilities, balancing development imperatives with environmental responsibility. While headline indicators show substantial compliance, deeper analysis reveals incomplete decoupling between growth and emissions, structural dependence on coal, and gaps between capacity creation and actual decarbonisation outcomes.

    Why in the News?

    India has recorded significant progress on climate metrics such as emissions intensity reduction and non-fossil power capacity expansion. Emissions intensity declined by nearly 36% between 2005 and 2020, placing India ahead of its 2030 target of 33-35% reduction. Installed non-fossil capacity crossed 40% of total capacity, achieving a Paris commitment nearly a decade early. However, absolute emissions continue to rise, forest carbon sinks remain overstated, and renewable capacity has not proportionally translated into electricity generation. The divergence between numerical targets and real climate outcomes makes this a critical inflection point.

    Has India Successfully Reduced Its Emissions Intensity?

    1. Emissions Intensity Reduction: Declined by approximately 36% from 2005 to 2020, exceeding the 2030 target of 33-35%.
    2. Comparative Performance: Intensity decline outperforms most G20 peers despite lower per-capita emissions.
    3. Structural Drivers: Renewable capacity expansion, efficiency improvements in power generation, and sectoral shifts towards services.
    4. Limitation: Intensity reduction masks rising absolute emissions due to economic expansion.

    Why Do Absolute Emissions Continue to Rise?

    1. Incomplete Decoupling: GDP growth has outpaced emissions growth, but emissions have not declined in absolute terms.
    2. Emission Levels: Territorial greenhouse gas emissions stood at ~2,959 MtCO₂e in 2020 and continue to increase.
    3. Sectoral Divergence: Power sector emissions grow faster than industrial emissions due to coal dependence.
    4. Policy Implication: Intensity-based targets delay hard choices on fossil fuel phase-down.

    Has Renewable Capacity Expansion Translated into Clean Power Generation?

    1. Installed Capacity: Non-fossil capacity crossed 40% by 2025, nearly ten years ahead of schedule.
    2. Generation Share: Non-fossil generation remains substantially lower due to grid constraints and intermittency.
    3. Coal Dominance: India retains 253 GW of coal-based capacity, providing baseload power.
    4. Curtailment Losses: Grid congestion and state-level regulatory bottlenecks limit renewable utilisation.
    5. Storage Gap: Against a projected requirement of 336 GWh of storage by 2029-30, only 500 MW of battery storage is operational as of September 2025.

    Are Forest-Based Carbon Sink Targets Credible?

    1. Official Claim: India reports 30.43 billion tonnes of CO₂ equivalent forest carbon stock.
    2. 2030 Target: Additional 2.5-3 billion tonnes CO₂e sequestration through forests.
    3. Measurement Issue: Forest Survey of India defines “forest cover” as land above one hectare with over 10% canopy, including plantations and monocultures.
    4. Satellite Evidence: Natural forest cover increased only 156 sq km between 2015-2023, while recorded forest cover rose by over 75,000 sq km.
    5. CAMPA Utilisation: Of ₹95,000 crore available, only 23% utilised between 2019-20 and 2023-24.
    6. Policy Risk: Over-reliance on plantations weakens biodiversity and long-term carbon stability.

    Why Does the Gap Persist Between Targets and Outcomes?

    1. Capacity vs Output Gap: Renewable installations do not proportionately increase clean electricity generation.
    2. Grid Infrastructure Deficit: Transmission, balancing capacity, and storage expansion lag behind capacity addition.
    3. Policy Fragmentation: Climate governance prioritises accounting compliance over ecological restoration.
    4. Administrative Frictions: Delays in land acquisition, approvals, and state coordination limit execution.

    What Are the Critical Challenges Ahead?

    1. Coal Lock-in: Continued investment in coal infrastructure constrains long-term decarbonisation.
    2. Storage Scaling: Energy transition hinges on rapid deployment of battery and pumped storage.
    3. Data Transparency: Overstated forest metrics undermine credibility of carbon sink commitments.
    4. Climate Stress: Rising heatwaves and water stress challenge forest productivity and carbon assimilation.

    Conclusion

    India has delivered on quantified climate commitments but remains short of achieving ecological transformation. The next phase requires shifting from intensity-led compliance to outcome-oriented decarbonisation through coal phase-down, grid modernisation, credible carbon accounting, and governance reform.

    PYQ Relevance

    [UPSC 2021] Describe the major outcome of the 26th session of the Conference of Parties [COP] to the United Nations Framework conversation on climate change [UNFCCC]. What are the commitments made by India in this conference.

    Linkage: This question links to the article’s evaluation of India’s COP-26 commitments, showing that while emissions intensity reduction and non-fossil capacity targets are being met, absolute emissions continue to rise. It highlights the UPSC focus on assessing climate pledges against actual outcomes, especially coal dependence and gaps in real decarbonisation.

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  • Agmark, Hallmark, ISI, BIS, BEE and Other Ratings

    79th Foundation Day of Bureau of Indian Standards 

    Prelims Only | Governance | Mains Paper 2: Governance, Transparency & Accountability, Citizens Charters

    Why in the News?

    The 79th Foundation Day of the Bureau of Indian Standards was celebrated, where the Union Minister highlighted BIS’s transition from a regulatory role to a facilitative and enabling institution, aligned with ease of doing business and promotion of a quality culture.

    Bureau of Indian Standards

    • India’s National Standards Body
    • Responsible for standardisation, certification, hallmarking, and quality assurance
    • Protects consumer interests and enhances global competitiveness of Indian products

    Establishment and Legal Framework

    • Established in 1987
    • Came into force on 1 April 1987
    • Governed by the BIS Act, 2016
    • Headquarters at New Delhi

    Historical Evolution

    • 1947 Indian Standards Institution established
    • 1952 to 1956 ISI Certification Marks Scheme launched
    • 1987 ISI transformed into BIS with expanded mandate
    • 2016 BIS Act strengthened consumer participation and international alignment

    Significance

    • Strengthens quality infrastructure in India
    • Supports Make in India and export competitiveness
    • Promotes consumer safety and trust
    • Aligns Indian standards with global best practices

    Prelims Pointers

    • BIS is India’s national standards authority
    • ISI mark originated before BIS
    • BIS Act 2016 expanded consumer role
    • Hallmarking is mandatory for precious metals
    • Digital standardisation is a recent reform focus
    [2017] Consider the following statements: 

    1. The Standard Mark of Bureau of Indian Standards (BIS) is mandatory for automotive tyres and tubes

    2. AGMARK is a quality Certification Mark issued by the Food and Agriculture Organisation (FAO)

    Which of the statements given above is/are correct? 

    (a) 1 only (b) 2 only (c) Both 1 and 2 (d) Neither 1 nor 2

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  • Promoting Science and Technology – Missions,Policies & Schemes

    Indian Scientists Simulate Mpemba Effect Using Supercomputers 

    Prelims Only | Science Tech | Mains Paper 3: Awareness in various sc and tech fields

    Why in the News?

    Indian scientists have developed the first supercomputer powered simulation to successfully capture the Mpemba effect, the counterintuitive phenomenon where hot water freezes faster than cold water. The achievement was announced by the Ministry of Science and Technology.

    What is the Mpemba Effect

    • A physical phenomenon in which hot water freezes faster than colder water under certain conditions
    • Named after Erasto Mpemba, a Tanzanian student who reported the effect in the 1960s
    • Long considered a scientific paradox due to lack of a complete theoretical explanation

    Key Findings

    • Simulation successfully reproduced the Mpemba effect in water
    • Demonstrated that the effect can also occur in fluid to solid phase transitions beyond water
    • Confirms that non equilibrium thermodynamics plays a crucial role in freezing dynamics

    Scientific Significance

    • Resolves a long standing physical paradox through computational physics
    • Enhances understanding of phase transitions and heat transfer
    • Opens new avenues in materials science and condensed matter physics
    • Shows the power of supercomputing in theoretical and experimental validation

    Institutional Context

    • Research supported by India’s advanced scientific infrastructure
    • Aligns with national efforts in computational science, physics research, and supercomputing missions

    Prelims Pointers

    • The Mpemba effect refers to the faster freezing of hot water compared to cold
    • The phenomenon lacks a single universal explanation
    • Supercomputer simulations help study processes at atomic and molecular scales
    • The effect may exist in systems other than water
    [2011] The surface of a lake is frozen in severe winter, but the water at its bottom is still liquid. What is the reason? 

    (a) Ice is a bad conductor of heat

    (b) Since the surface of the lake is at the same temperature as the air, no heat is lost

    (c) The density of water is maximum at 4°C

    (d) None of the statements (a), (b) and (c)

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  • Railway Reforms

    Indian Railways Becomes World’s Largest Electrified Rail

    Prelims Only | Economics | Mains Paper 3: Infrastructure: Energy, Ports, Roads, Airports, Railways Etc.

    Why in the News?

    Indian Railways has become the largest electrified rail network in the world, with about 99.2 percent of its broad gauge network electrified as of November 2025.

    About Indian Railways Electrification Achievement

    • Indian Railways is India’s national transporter and one of the world’s largest railway networks
    • It has achieved near complete electrification of its broad gauge routes
    • The milestone was achieved under Mission 100 percent Railway Electrification

    Background

    • Railway electrification in India began in 1925
    • Mission mode acceleration started after 2014

    Objectives of Mission 100 percent Railway Electrification

    • Eliminate diesel traction
    • Shift to clean electric traction
    • Reduce carbon emissions and air pollution
    • Lower fuel import dependence
    • Improve speed, reliability, and operational efficiency

    Key Features and Data

    • About 99.2 percent of nearly 70,000 route kilometres electrified
    • Electrification speed increased from
      1.42 km per day during 2004 to 2014
      More than 15 km per day during 2019 to 2025
    • 25 States and Union Territories fully electrified
    • Only around 0.8 percent network remains non electrified

    Renewable Energy Integration

    • Solar capacity increased from 3.68 MW in 2014 to about 898 MW in 2025
    • Supports cleaner traction and lower operational emissions
    • Aligns with India’s renewable energy and climate goals

    Technological Advancements

    • Use of Automatic Wiring Trains
    • Mechanised Overhead Equipment foundation systems
    • Faster and safer electrification with reduced manual intervention
    [2025] Consider the following statements: 

    I. Indian Railways have prepared a National Rail Plan (NRP) to create a future ready railway system by 2028

    II. ‘Kavach’ is an Automatic Train Protection system developed in collaboration with Germany. 

    III. ‘Kavach’ system consists of RFID tags fitted on track in station section. 

    Which of the statements given above are not correct? 

    (a) I and II only (b) II and III only (c) I and III only (d) I, II and III

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  • New Species of Plants and Animals Discovered

    Remarkable New Species Discovered in India in 2025

    Prelims Only | Enviro & Biodiversity | Mains Paper 3: Conservation, Environmental Pollution & Degradation, Eia

    Why in the News?

    In December 2025, Indian scientists announced the discovery of multiple new species across diverse ecosystems, ranging from the Eastern Himalayas to the Western Ghats, highlighting India’s rich and still underexplored biodiversity.

    Key New Species Discovered

    Bridgeoporus kanadii

    Type: Macro fungi
    Discovery region: West Kameng district, Arunachal Pradesh
    Habitat: Old growth Abies fir trees
    Key features:

    • Thick, leathery and massive fruiting body
    • Extremely sturdy, capable of bearing human weight
       Significance:
    • Indicates high fungal diversity in Eastern Himalayan forests
    • Highlights ecological value of old growth conifer ecosystems

    Rhinophis siruvaniensis

    Type: Non venomous shieldtail snake
     Family: Uropeltidae
     Discovery region: Siruvani Hills, Kerala, Western Ghats
     Key features:

    • Fossorial or burrowing lifestyle
    • Specialized tail shield for digging and protection
       Significance:
    • Adds to endemic reptile diversity of the Western Ghats
    • Reinforces the region as a global biodiversity hotspot

    Neelus sikkimensis

    Type: Springtail or Collembola
    Discovery region: High altitude cold desert soils of Sikkim, Eastern Himalayas
    Key features:

    • Wingless arthropod with a jumping organ called furcula
    • First record of the genus Neelus in India
       Significance:
    • Identified by Zoological Survey of India
    • Global species count of Neelus expanded to eight
    • Indicates biodiversity even in extreme cold environments

    Parasynnemellisia khasiana

    Type: Fungus
    Taxonomy: Completely new genus and species
    Discovery region: Khasi Hills near Mawsynram, Meghalaya
    Habitat: Dense bamboo forests in ultra high rainfall zones
    Key features:

    • Grows in association with bamboo ecosystems
    • Adapted to one of the wettest regions on Earth
       Significance:
    • Demonstrates unexplored microbial diversity of Northeast India

    Dolomedes indicus

    Type: Fishing spider
    Discovery region: Wayanad and Lakkidi, Western Ghats, Kerala
    Key features:

    • Semi aquatic spider
    • Can skate on water surfaces
    • Hunts aquatic insects and small fish

    Significance:

    • First confirmed fishing spider species in India
    • Highlights freshwater dependent arthropod diversity

    Ophiorrhiza mizoramensis

    Type: Flowering shrub
    Family: Rubiaceae or coffee family
    Discovery region: Murlen National Park, Mizoram
    Key features:

    • Grows up to one metre
    • Dark purplish pink tubular flowers
    • Unique stigma lobe structure

    Conservation status:

    • Provisionally assessed as Critically Endangered
    • Fewer than 200 mature individuals recorded

    Overall Significance

    • Confirms India as a megadiverse country
    • Highlights importance of Eastern Himalayas and Western Ghats
    • Strengthens case for habitat conservation and taxonomy research
    • Shows climate resilient and niche specific species evolution

    Prelims Pointers

    • Western Ghats and Eastern Himalayas are global biodiversity hotspots
    • New genus discovery indicates unexplored fungal diversity
    • High altitude ecosystems also host unique micro fauna
    • Many new species face immediate conservation threats
    [2022] With reference to ‘Gucchi’ sometimes mentioned in the news, consider the following statements: 

    1. It is a fungus. 

    2. It grows in some Himalayan forest areas

    3. It is commercially cultivated in the Himalayan foothills of north-eastern India

    Which of the statements given above is correct? 

    (a) 1 only (b) 3 only (c) 1 and 2 (d) 2 and 3

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  • Foreign Policy Watch: India-Iran

    [7th January 2026] The Hindu OpED: At a crossroads: On Iran’s unrest, its re-engagement with the world

    op-ed snap | International Relations | Mains Paper 2: Bilateral, Regional and Global Groupings and agreements involving India

    PYQ Relevance

    [UPSC 2018] In what ways would the ongoing US-Iran Nuclear Pact Controversy affect the national interest of India? How should India respond to this situation?

    Linkage: It falls under GS II-Effect of policies and politics of developed countries on India’s interests, focusing on sanctions, energy security, strategic autonomy, and West Asia stability. Iran’s unrest and economic collapse show how the U.S.-Iran nuclear dispute disrupts regional stability and directly affects India’s energy security and connectivity interests.

    Mentor’s Comment

    Iran is witnessing its most serious internal crisis since the 2022-23 unrest, marked by economic collapse, mass protests, and renewed geopolitical pressure. The current phase of instability is unfolding in the immediate aftermath of a brief but intense war with Israel and amid heightened U.S. coercive posturing. This editorial examines how domestic economic fragility, external pressures, and governance constraints have converged to place Iran at a critical crossroads. Here repression risks deepening instability, and reform coupled with global re-engagement remains the only viable exit.

    Why in the News?

    Iran is facing its largest nationwide protests since the 2022-23 Mahsa Amini unrest, triggered initially by a strike by Tehran shopkeepers on December 28 against the sharp collapse of the Iranian rial. What makes this moment significant is the convergence of economic freefall, post-war vulnerability, and overt foreign signalling, including claims by Israel’s Mossad of field-level presence and explicit U.S. threats of force. At least 12 protest-related deaths have been reported within a week, underscoring the scale and volatility of the crisis.

    Introduction

    Iran’s current unrest is not an episodic protest cycle but a manifestation of structural economic decay and political rigidity. The collapse of the rial, runaway food inflation, declining oil revenues, and daily power outages have eroded regime legitimacy. While President Masoud Pezeshkian has signalled limited social relaxation, especially on morality policing, his administration remains constrained on economic reform and national security. The state’s reliance on repression and attribution of unrest to foreign interference risks aggravating an already combustible situation.

    What triggered the current wave of protests?

    1. Currency Collapse: Sharp fall in the Iranian rial since the June 2025 war directly affected traders and households, triggering the initial strike.
    2. Economic Shock Transmission: Trader unrest rapidly expanded into nationwide protests, indicating deep-rooted economic distress beyond urban commercial classes.
    3. Continuity with Past Unrest: Represents the largest mobilization since the Mahsa Amini-led protests of 2022-23, signalling unresolved grievances.

    How severe is Iran’s current economic crisis?

    1. Food Inflation: Reached 64% in October, the second highest globally after South Sudan, indicating acute cost-of-living stress.
    2. Currency Devaluation: Rial has lost 60% of its value since the June 2025 war, eroding savings and purchasing power.
    3. Oil Export Decline: 2025 oil exports fell by ~7% compared to the 2024 average, tightening fiscal space.
    4. Energy Shortages: Daily power outages have become routine, reflecting infrastructure stress and governance failure.

    How is post-war geopolitics amplifying domestic instability?

    1. War Aftermath: The unrest comes six months after a 12-day Iran-Israel war, which already strained Iran’s economy and security apparatus.
    2. Israeli Signalling: Mossad publicly claimed operational presence “in the field” with protesters, intensifying regime paranoia.
    3. U.S. Threat Posture: U.S. President Donald Trump warned on January 2 that the U.S. was “locked and loaded” to use force if protesters were killed.
    4. External Pressure Effect: Foreign threats have reinforced regime defensiveness while worsening civilian suffering.

    How is the Iranian state responding internally?

    1. Repression: Security warnings against “rioters” and reported deaths indicate reliance on coercive control.
    2. Limited Social Relaxation: President Pezeshkian has relaxed morality police enforcement, signalling tactical social easing.
    3. Economic Paralysis: The President admitted in December that the government was “stuck” and incapable of performing “miracles”.
    4. Blame Externalisation: Default regime response continues to attribute crises to foreign interference.

    Why is repression proving counterproductive?

    1. Cycle of Crisis: Economic deterioration combined with repression is reinforcing instability rather than restoring order.
    2. Public Anger Reservoir: Years of shrinking economic opportunity and erosion of political and personal freedoms have accumulated latent discontent.
    3. Ideological Fatigue: Religion and nationalism are no longer sufficient buffers against economic hardship.
    4. Legitimacy Erosion: Persistent hardship weakens the regime’s social contract and coercive credibility.

    What path does the editorial suggest forward?

    1. Domestic Reform: Calls for tackling corruption and initiating meaningful economic reform.
    2. Empowering Moderates: Urges external actors to engage and empower President Pezeshkian, not undermine him.
    3. Re-engagement with the World: Emphasises that isolation and coercion deepen instability.
    4. Strategic Restraint: Warns against threats issued on Israel’s behalf, which harden regime paranoia.

    Value Addition: Regional and Global Political Impact of Iran’s Imbroglio

    Impact on the Middle East

    1. Regional Power Balance: Weakens Iran’s capacity to project influence across Iraq, Syria, Lebanon, and Yemen, altering the regional balance vis-à-vis Israel and Gulf Arab states.
    2. Proxy Network Stress: Economic strain constrains Iran’s ability to sustain allied non-state actors, increasing volatility and fragmentation within proxy theatres.
    3. Escalation Risks: External pressure combined with internal unrest raises incentives for diversionary foreign policy actions, heightening conflict risks in the Gulf and Levant.
    4. Israel-Iran Confrontation: Mossad’s public signalling and Iran’s internal vulnerability increase the likelihood of covert and overt escalatory cycles.
    5. Gulf Security Architecture: Reinforces security anxieties among Gulf Cooperation Council states, accelerating defence alignment and external security dependence.

    Impact on India

    1. Energy Security: Iran’s instability and sanctions-related disruptions affect global oil supply dynamics, exposing India to price volatility and import uncertainty.
    2. Connectivity Projects: Political instability undermines strategic projects such as Chabahar port, affecting India’s access to Afghanistan and Central Asia.
    3. Strategic Autonomy: Intensified U.S.-Iran tensions constrain India’s diplomatic space, complicating balanced engagement with West Asia, Israel, and the U.S.
    4. Diaspora and Trade: Regional instability increases risks for Indian diaspora, remittances, and trade flows across the Gulf region.
    5. Regional Stability Interest: Sustained unrest weakens India’s vision of a stable West Asia essential for economic and maritime security.

    Impact on the Global Order

    1. Sanctions Fatigue: Highlights the limits of coercive economic tools, demonstrating how prolonged sanctions can erode civilian welfare without political moderation.
    2. Norms of Intervention: U.S. threats of force linked to internal unrest blur lines between humanitarian concern and strategic coercion.
    3. Energy Markets: Iran-related instability contributes to structural volatility in global energy markets, affecting inflation and growth worldwide.
    4. Multipolar Contestation: Iran’s crisis becomes another arena for great-power signalling, deepening geopolitical fragmentation.
    5. Authoritarian Resilience Debate: Raises questions about the sustainability of repression-led governance under prolonged economic stress.

    Conclusion

    Iran’s current unrest reflects a convergence of economic collapse, governance rigidity, and external pressure. Continued reliance on repression and isolation risks deepening internal instability and regional spillovers. Sustainable stability lies in economic reform, political accommodation, and calibrated international re-engagement rather than coercive containment.

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  • Foreign Policy Watch: India-China

    The Chinese are using ambiguity on the LAC and unsettles borders as a pressure point against us

    Explained | International Relations | Mains Paper 2: Bilateral, Regional and Global Groupings and agreements involving India

    Introduction

    The Line of Actual Control is not a mutually demarcated boundary but a result of differing historical perceptions. China has progressively shifted from negotiating boundary clarification to leveraging uncertainty to alter ground realities. This strategy enables incremental territorial assertion without triggering full-scale conflict, fundamentally altering the nature of India-China border management.

    Why in the news?

    India-China border tensions persist despite multiple agreements and disengagement talks, underscoring a deeper structural problem: the absence of a mutually accepted alignment of the LAC. China is no longer merely disputing territory but strategically weaponising ambiguity itself. Unlike earlier periods where border negotiations aimed at eventual settlement, China now treats unsettled borders as a permanent pressure lever, enabling coercion below the threshold of war. This marks a sharp departure from confidence-building frameworks established since the 1990s and highlights a major failure of past assumptions that economic engagement would moderate China’s territorial behaviour.

    How did the LAC originate and why does ambiguity persist?

    1. Historical Construction: The LAC emerged after the 1962 conflict as a de facto line reflecting troop positions rather than a legally negotiated boundary.
    2. Divergent Interpretations: China interprets the LAC using selective historical maps, while India relies on watershed principles and traditional usage.
    3. Absence of Final Alignment: No exchange of mutually accepted maps has occurred for the entire LAC, particularly in the Western and Eastern sectors.
    4. Strategic Utility of Ambiguity: China benefits from uncertainty, as clarity would constrain its manoeuvrability on the ground.

    How has China operationalised ambiguity as a strategic tool?

    1. Grey-Zone Operations: Incremental troop movements, patrol obstruction, and infrastructure build-up alter facts without overt combat.
    2. Salami-Slicing Tactics: Small, cumulative actions avoid escalation while steadily shifting the status quo.
    3. Denial of Disengagement: China accepts disengagement in principle but resists restoration of pre-2020 positions.
    4. Psychological Pressure: Persistent friction imposes military, economic, and diplomatic costs on India.

    Why is Arunachal Pradesh central to China’s claim strategy?

    1. Rejection of McMahon Line: China contests the eastern boundary despite historical acceptance by Tibet’s representatives.
    2. Political Rebranding: Use of alternative nomenclature seeks to delegitimise India’s sovereignty claims.
    3. Diplomatic Signalling: Repeated objections to Indian infrastructure and political activities reinforce claims.
    4. Negotiation Leverage: Eastern sector claims are used to extract concessions elsewhere.

    What role have border agreements played and why have they failed?

    1. 1993 and 1996 Agreements: Established peace and tranquillity but avoided boundary clarification.
    2. Confidence-Building Focus: Emphasised troop restraint rather than territorial settlement.
    3. Breakdown Post-2020: Galwan clashes exposed the fragility of trust-based arrangements.
    4. Structural Limitation: Agreements regulate behaviour but do not resolve competing perceptions of the LAC.

    How has India responded to China’s pressure strategy?

    1. Firm Rejection of Claims: India has consistently rejected Chinese assertions in Arunachal Pradesh.
    2. Infrastructure Development: Accelerated border roads and logistics to reduce asymmetry.
    3. Military Posture Adjustment: Forward deployment and sustained presence across friction points.
    4. Diplomatic Signalling: Insistence on restoration of status quo ante as a prerequisite for normalisation.

    Conclusion

    The continued absence of a clearly delineated Line of Actual Control has transformed the India-China boundary from a negotiable dispute into a strategic pressure instrument. China’s deliberate exploitation of ambiguity has weakened confidence-building mechanisms and normalised coercion below the threshold of war. For India, effective border management now requires not only military preparedness and infrastructure development but also sustained diplomatic firmness anchored in restoration of the status quo and long-term boundary clarity.

    PYQ Relevance

    [UPSC 2020] Analyze internal security threats and transborder crimes along Myanmar, Bangladesh and Pakistan borders including Line of Control (LoC). Also discuss the role played by various security forces in this regard. 

    Linkage: UPSC has repeatedly asked questions on border area management and transborder security threats, particularly along the LoC and international borders. In the current context, the LAC has emerged as an equally critical security frontier, where China’s use of ambiguity and grey-zone pressure mirrors the management of persistent, low-intensity threats without escalation.

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  • Health Sector – UHC, National Health Policy, Family Planning, Health Insurance, etc.

    How Haryana turned around sex ratio at birth, now close to national average

    Explained | Indian Society | Mains Paper 1: Diversity Of India,Social Empowerment

    Introduction

    Sex ratio at birth reflects deep-rooted social preferences, access to technology, and effectiveness of governance. Haryana’s demographic profile was historically distorted due to entrenched son preference and misuse of prenatal diagnostic technologies. The recent improvement indicates a shift driven by administrative vigilance, legal enforcement, and behavioural correction mechanisms, rather than mere awareness campaigns.

    Why in the News

    Haryana’s sex ratio at birth (SRB) rose to 923 females per 1,000 males in 2023, bringing the state close to the national average of 933. This marks a sharp reversal from its historical position among India’s worst-performing states. The improvement follows two decades of sustained interventions, including enforcement against illegal sex selection, medical monitoring, inter-departmental coordination, and district-level surveillance. The state also recorded its best SRB performance in five years, signalling structural rather than episodic change.

    How severe was Haryana’s demographic imbalance earlier?

    1. Historically low SRB: Haryana ranked among the worst Indian states during the 2000s due to female foeticide.
    2. Technology misuse: Easy access to ultrasound and weak regulation facilitated sex-selective abortions.
    3. Structural bias: Son preference reinforced by inheritance practices and patriarchal norms.
    4. National comparison: Haryana consistently performed below the national SRB average for years.

    What institutional measures drove the turnaround?

    1. Legal enforcement: Strict implementation of the (Pre-Conception and Pre-Natal Diagnostic Techniques (PCPNDT) Act, 1994, including registration checks and surprise inspections.
    2. Criminal accountability: Filing of over 1,375 FIRs against illegal practitioners since 2014.
    3. Administrative coordination: Weekly reviews involving health, police, and district administrations.
    4. Tracking mechanisms: Continuous monitoring of ultrasound centres and pregnancy outcomes.

    How did district-level governance contribute?

    1. District surveillance: Identification of high-risk districts and targeted enforcement.
    2. Best-performing districts: Panchkula, Jhajjar, and Rewari crossed 940 SRB.
    3. Worst-performing districts: Palwal, Faridabad, and Panipat remained below the state average, indicating uneven progress.
    4. Outcome-based reviews: Regular district rankings created competitive accountability.

    What role did monitoring of medical practices play?

    1. Ultrasound regulation: Tight scrutiny of ultrasound centres and equipment movement.
    2. Pregnancy audits: Tracking of repeat abortions and abnormal sex ratios at facility levels.
    3. Professional deterrence: Suspension and prosecution of erring doctors.
    4. Sustained vigilance: Monitoring continued even during COVID-19 disruptions.

    Why is this shift considered structurally significant?

    1. Consistency over time: Improvement sustained across multiple years rather than isolated spikes.
    2. Behavioural correction: Reduced acceptance of sex-selective practices at the community level.
    3. Policy credibility: Demonstrates effectiveness of law when combined with administrative resolve.
    4. Replication potential: Offers a governance model for other demographically stressed states.

    Value Addition: Sex Ratio at Birth in India 

    1. National SRB: Approximately 933 females per 1,000 males.
    2. Regional variation: Northern and north-western states historically record lower SRB.
    3. Underlying causes: Son preference, declining fertility, and access to diagnostic technology
    4. Policy instruments: Beti Bachao Beti Padhao, PCPNDT Act, and conditional cash transfer schemes.
    5. Trend: Gradual national improvement, but inter-state disparities persist.

    Conclusion

    Haryana’s improvement in sex ratio at birth underscores that deep-rooted gender bias is not irreversible when governance moves beyond symbolic welfare to sustained enforcement and accountability. The experience demonstrates that demographic correction requires a long-term, law-driven, and institutionally coordinated approach, reinforcing that gender justice must be ensured at the earliest stage of life for social transformation to be durable.

    PYQ Relevance

    [UPSC 2021] “Though women in post-Independent India have excelled in various fields, the social attitude towards women and feminist movement has been patriarchal.” Apart from women education and women empowerment schemes, what interventions can help change this milieu?

    Linkage: Persistent patriarchal attitudes, reflected in practices like female foeticide and skewed sex ratios at birth, show that women’s progress has not translated into social acceptance. Haryana’s SRB turnaround demonstrates that strict legal enforcement, behavioural regulation, and institutional accountability are critical interventions.

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